//===- Operator.cpp - Operator class --------------------------------------===// // // Copyright 2019 The MLIR Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // ============================================================================= // // Operator wrapper to simplify using TableGen Record defining a MLIR Op. // //===----------------------------------------------------------------------===// #include "mlir/TableGen/Operator.h" #include "mlir/TableGen/Predicate.h" #include "mlir/TableGen/Type.h" #include "llvm/ADT/StringExtras.h" #include "llvm/Support/FormatVariadic.h" #include "llvm/TableGen/Error.h" #include "llvm/TableGen/Record.h" using namespace mlir; using llvm::DagInit; using llvm::DefInit; using llvm::Record; tblgen::Operator::Operator(const llvm::Record &def) : def(def) { SplitString(def.getName(), splittedDefName, "_"); populateOperandsAndAttributes(); } const SmallVectorImpl &tblgen::Operator::getSplitDefName() const { return splittedDefName; } StringRef tblgen::Operator::getOperationName() const { return def.getValueAsString("opName"); } StringRef tblgen::Operator::getCppClassName() const { return getSplitDefName().back(); } std::string tblgen::Operator::getQualCppClassName() const { return llvm::join(getSplitDefName(), "::"); } int tblgen::Operator::getNumResults() const { DagInit *results = def.getValueAsDag("results"); return results->getNumArgs(); } tblgen::Type tblgen::Operator::getResultType(int index) const { DagInit *results = def.getValueAsDag("results"); return Type(cast(results->getArg(index))); } StringRef tblgen::Operator::getResultName(int index) const { DagInit *results = def.getValueAsDag("results"); return results->getArgNameStr(index); } int tblgen::Operator::getNumNativeAttributes() const { return derivedAttrStart - nativeAttrStart; } const tblgen::NamedAttribute &tblgen::Operator::getAttribute(int index) const { return attributes[index]; } StringRef tblgen::Operator::getArgName(int index) const { DagInit *argumentValues = def.getValueAsDag("arguments"); return argumentValues->getArgName(index)->getValue(); } auto tblgen::Operator::attribute_begin() -> attribute_iterator { return attributes.begin(); } auto tblgen::Operator::attribute_end() -> attribute_iterator { return attributes.end(); } auto tblgen::Operator::getAttributes() -> llvm::iterator_range { return {attribute_begin(), attribute_end()}; } auto tblgen::Operator::operand_begin() -> operand_iterator { return operands.begin(); } auto tblgen::Operator::operand_end() -> operand_iterator { return operands.end(); } auto tblgen::Operator::getOperands() -> llvm::iterator_range { return {operand_begin(), operand_end()}; } auto tblgen::Operator::getArg(int index) -> Argument { if (index < nativeAttrStart) return {&operands[index]}; return {&attributes[index - nativeAttrStart]}; } void tblgen::Operator::populateOperandsAndAttributes() { auto &recordKeeper = def.getRecords(); auto attrClass = recordKeeper.getClass("Attr"); auto derivedAttrClass = recordKeeper.getClass("DerivedAttr"); derivedAttrStart = -1; // The argument ordering is operands, native attributes, derived // attributes. DagInit *argumentValues = def.getValueAsDag("arguments"); unsigned i = 0; // Handle operands. for (unsigned e = argumentValues->getNumArgs(); i != e; ++i) { auto arg = argumentValues->getArg(i); auto givenName = argumentValues->getArgNameStr(i); auto argDefInit = dyn_cast(arg); if (!argDefInit) PrintFatalError(def.getLoc(), Twine("undefined type for argument ") + Twine(i)); Record *argDef = argDefInit->getDef(); if (argDef->isSubClassOf(attrClass)) break; operands.push_back(Operand{givenName, Type(argDefInit)}); } // Handle native attributes. nativeAttrStart = i; for (unsigned e = argumentValues->getNumArgs(); i != e; ++i) { auto arg = argumentValues->getArg(i); auto givenName = argumentValues->getArgNameStr(i); Record *argDef = cast(arg)->getDef(); if (!argDef->isSubClassOf(attrClass)) PrintFatalError(def.getLoc(), Twine("expected attribute as argument ") + Twine(i)); if (givenName.empty()) PrintFatalError(argDef->getLoc(), "attributes must be named"); bool isDerived = argDef->isSubClassOf(derivedAttrClass); if (isDerived) PrintFatalError(def.getLoc(), "derived attributes not allowed in argument list"); attributes.push_back({givenName, Attribute(argDef)}); } // Handle derived attributes. derivedAttrStart = i; for (const auto &val : def.getValues()) { if (auto *record = dyn_cast(val.getType())) { if (!record->isSubClassOf(attrClass)) continue; if (!record->isSubClassOf(derivedAttrClass)) PrintFatalError(def.getLoc(), "unexpected Attr where only DerivedAttr is allowed"); if (record->getClasses().size() != 1) { PrintFatalError( def.getLoc(), "unsupported attribute modelling, only single class expected"); } attributes.push_back( {cast(val.getNameInit())->getValue(), Attribute(cast(val.getValue()))}); } } } bool tblgen::Operator::hasDescription() const { return def.getValue("description") != nullptr; } StringRef tblgen::Operator::getDescription() const { return def.getValueAsString("description"); } bool tblgen::Operator::hasSummary() const { return def.getValue("summary") != nullptr; } StringRef tblgen::Operator::getSummary() const { return def.getValueAsString("summary"); }